package libnetwork import ( "context" "fmt" "math/rand" "net" "strings" "sync" "time" "github.com/docker/docker/libnetwork/types" "github.com/miekg/dns" "github.com/sirupsen/logrus" "golang.org/x/sync/semaphore" "golang.org/x/time/rate" ) // DNSBackend represents a backend DNS resolver used for DNS name // resolution. All the queries to the resolver are forwarded to the // backend resolver. type DNSBackend interface { // ResolveName resolves a service name to an IPv4 or IPv6 address by searching // the networks the sandbox is connected to. For IPv6 queries, second return // value will be true if the name exists in docker domain but doesn't have an // IPv6 address. Such queries shouldn't be forwarded to external nameservers. ResolveName(name string, iplen int) ([]net.IP, bool) // ResolveIP returns the service name for the passed in IP. IP is in reverse dotted // notation; the format used for DNS PTR records ResolveIP(name string) string // ResolveService returns all the backend details about the containers or hosts // backing a service. Its purpose is to satisfy an SRV query ResolveService(name string) ([]*net.SRV, []net.IP) // ExecFunc allows a function to be executed in the context of the backend // on behalf of the resolver. ExecFunc(f func()) error // NdotsSet queries the backends ndots dns option settings NdotsSet() bool // HandleQueryResp passes the name & IP from a response to the backend. backend // can use it to maintain any required state about the resolution HandleQueryResp(name string, ip net.IP) } const ( dnsPort = "53" ptrIPv4domain = ".in-addr.arpa." ptrIPv6domain = ".ip6.arpa." respTTL = 600 maxExtDNS = 3 // max number of external servers to try extIOTimeout = 4 * time.Second maxConcurrent = 1024 logInterval = 2 * time.Second ) type extDNSEntry struct { IPStr string port uint16 // for testing HostLoopback bool } // Resolver is the embedded DNS server in Docker. It operates by listening on // the container's loopback interface for DNS queries. type Resolver struct { backend DNSBackend extDNSList [maxExtDNS]extDNSEntry server *dns.Server conn *net.UDPConn tcpServer *dns.Server tcpListen *net.TCPListener err error listenAddress string proxyDNS bool startCh chan struct{} logger *logrus.Logger fwdSem *semaphore.Weighted // Limit the number of concurrent external DNS requests in-flight logInverval rate.Sometimes // Rate-limit logging about hitting the fwdSem limit } // NewResolver creates a new instance of the Resolver func NewResolver(address string, proxyDNS bool, backend DNSBackend) *Resolver { return &Resolver{ backend: backend, proxyDNS: proxyDNS, listenAddress: address, err: fmt.Errorf("setup not done yet"), startCh: make(chan struct{}, 1), fwdSem: semaphore.NewWeighted(maxConcurrent), logInverval: rate.Sometimes{Interval: logInterval}, } } func (r *Resolver) log() *logrus.Logger { if r.logger == nil { return logrus.StandardLogger() } return r.logger } // SetupFunc returns the setup function that should be run in the container's // network namespace. func (r *Resolver) SetupFunc(port int) func() { return func() { var err error // DNS operates primarily on UDP addr := &net.UDPAddr{ IP: net.ParseIP(r.listenAddress), Port: port, } r.conn, err = net.ListenUDP("udp", addr) if err != nil { r.err = fmt.Errorf("error in opening name server socket %v", err) return } // Listen on a TCP as well tcpaddr := &net.TCPAddr{ IP: net.ParseIP(r.listenAddress), Port: port, } r.tcpListen, err = net.ListenTCP("tcp", tcpaddr) if err != nil { r.err = fmt.Errorf("error in opening name TCP server socket %v", err) return } r.err = nil } } // Start starts the name server for the container. func (r *Resolver) Start() error { r.startCh <- struct{}{} defer func() { <-r.startCh }() // make sure the resolver has been setup before starting if r.err != nil { return r.err } if err := r.setupIPTable(); err != nil { return fmt.Errorf("setting up IP table rules failed: %v", err) } s := &dns.Server{Handler: dns.HandlerFunc(r.serveDNS), PacketConn: r.conn} r.server = s go func() { if err := s.ActivateAndServe(); err != nil { r.log().WithError(err).Error("[resolver] failed to start PacketConn DNS server") } }() tcpServer := &dns.Server{Handler: dns.HandlerFunc(r.serveDNS), Listener: r.tcpListen} r.tcpServer = tcpServer go func() { if err := tcpServer.ActivateAndServe(); err != nil { r.log().WithError(err).Error("[resolver] failed to start TCP DNS server") } }() return nil } // Stop stops the name server for the container. A stopped resolver can be // reused after running the SetupFunc again. func (r *Resolver) Stop() { r.startCh <- struct{}{} defer func() { <-r.startCh }() if r.server != nil { r.server.Shutdown() //nolint:errcheck } if r.tcpServer != nil { r.tcpServer.Shutdown() //nolint:errcheck } r.conn = nil r.tcpServer = nil r.err = fmt.Errorf("setup not done yet") r.fwdSem = semaphore.NewWeighted(maxConcurrent) } // SetExtServers configures the external nameservers the resolver should use // when forwarding queries. func (r *Resolver) SetExtServers(extDNS []extDNSEntry) { l := len(extDNS) if l > maxExtDNS { l = maxExtDNS } for i := 0; i < l; i++ { r.extDNSList[i] = extDNS[i] } } // NameServer returns the IP of the DNS resolver for the containers. func (r *Resolver) NameServer() string { return r.listenAddress } // ResolverOptions returns resolv.conf options that should be set. func (r *Resolver) ResolverOptions() []string { return []string{"ndots:0"} } func setCommonFlags(msg *dns.Msg) { msg.RecursionAvailable = true } //nolint:gosec // The RNG is not used in a security-sensitive context. var ( shuffleRNG = rand.New(rand.NewSource(time.Now().Unix())) shuffleRNGMu sync.Mutex ) func shuffleAddr(addr []net.IP) []net.IP { shuffleRNGMu.Lock() defer shuffleRNGMu.Unlock() for i := len(addr) - 1; i > 0; i-- { r := shuffleRNG.Intn(i + 1) //nolint:gosec // gosec complains about the use of rand here. It should be fine. addr[i], addr[r] = addr[r], addr[i] } return addr } func createRespMsg(query *dns.Msg) *dns.Msg { resp := new(dns.Msg) resp.SetReply(query) setCommonFlags(resp) return resp } func (r *Resolver) handleMXQuery(query *dns.Msg) (*dns.Msg, error) { name := query.Question[0].Name addrv4, _ := r.backend.ResolveName(name, types.IPv4) addrv6, _ := r.backend.ResolveName(name, types.IPv6) if addrv4 == nil && addrv6 == nil { return nil, nil } // We were able to resolve the name. Respond with an empty list with // RcodeSuccess/NOERROR so that email clients can treat it as "implicit MX" // [RFC 5321 Section-5.1] and issue a Type A/AAAA query for the name. resp := createRespMsg(query) return resp, nil } func (r *Resolver) handleIPQuery(query *dns.Msg, ipType int) (*dns.Msg, error) { var ( addr []net.IP ipv6Miss bool name = query.Question[0].Name ) addr, ipv6Miss = r.backend.ResolveName(name, ipType) if addr == nil && ipv6Miss { // Send a reply without any Answer sections r.log().Debugf("[resolver] lookup name %s present without IPv6 address", name) resp := createRespMsg(query) return resp, nil } if addr == nil { return nil, nil } r.log().Debugf("[resolver] lookup for %s: IP %v", name, addr) resp := createRespMsg(query) if len(addr) > 1 { addr = shuffleAddr(addr) } if ipType == types.IPv4 { for _, ip := range addr { rr := new(dns.A) rr.Hdr = dns.RR_Header{Name: name, Rrtype: dns.TypeA, Class: dns.ClassINET, Ttl: respTTL} rr.A = ip resp.Answer = append(resp.Answer, rr) } } else { for _, ip := range addr { rr := new(dns.AAAA) rr.Hdr = dns.RR_Header{Name: name, Rrtype: dns.TypeAAAA, Class: dns.ClassINET, Ttl: respTTL} rr.AAAA = ip resp.Answer = append(resp.Answer, rr) } } return resp, nil } func (r *Resolver) handlePTRQuery(query *dns.Msg) (*dns.Msg, error) { ptr := query.Question[0].Name name, after, found := strings.Cut(ptr, ptrIPv4domain) if !found || after != "" { name, after, found = strings.Cut(ptr, ptrIPv6domain) } if !found || after != "" { // Not a known IPv4 or IPv6 PTR domain. // Maybe the external DNS servers know what to do with the query? return nil, nil } host := r.backend.ResolveIP(name) if host == "" { return nil, nil } r.log().Debugf("[resolver] lookup for IP %s: name %s", name, host) fqdn := dns.Fqdn(host) resp := new(dns.Msg) resp.SetReply(query) setCommonFlags(resp) rr := new(dns.PTR) rr.Hdr = dns.RR_Header{Name: ptr, Rrtype: dns.TypePTR, Class: dns.ClassINET, Ttl: respTTL} rr.Ptr = fqdn resp.Answer = append(resp.Answer, rr) return resp, nil } func (r *Resolver) handleSRVQuery(query *dns.Msg) (*dns.Msg, error) { svc := query.Question[0].Name srv, ip := r.backend.ResolveService(svc) if len(srv) == 0 { return nil, nil } if len(srv) != len(ip) { return nil, fmt.Errorf("invalid reply for SRV query %s", svc) } resp := createRespMsg(query) for i, r := range srv { rr := new(dns.SRV) rr.Hdr = dns.RR_Header{Name: svc, Rrtype: dns.TypePTR, Class: dns.ClassINET, Ttl: respTTL} rr.Port = r.Port rr.Target = r.Target resp.Answer = append(resp.Answer, rr) rr1 := new(dns.A) rr1.Hdr = dns.RR_Header{Name: r.Target, Rrtype: dns.TypeA, Class: dns.ClassINET, Ttl: respTTL} rr1.A = ip[i] resp.Extra = append(resp.Extra, rr1) } return resp, nil } func (r *Resolver) serveDNS(w dns.ResponseWriter, query *dns.Msg) { var ( resp *dns.Msg err error ) if query == nil || len(query.Question) == 0 { return } queryName := query.Question[0].Name queryType := query.Question[0].Qtype switch queryType { case dns.TypeA: resp, err = r.handleIPQuery(query, types.IPv4) case dns.TypeAAAA: resp, err = r.handleIPQuery(query, types.IPv6) case dns.TypeMX: resp, err = r.handleMXQuery(query) case dns.TypePTR: resp, err = r.handlePTRQuery(query) case dns.TypeSRV: resp, err = r.handleSRVQuery(query) default: r.log().Debugf("[resolver] query type %s is not supported by the embedded DNS and will be forwarded to external DNS", dns.TypeToString[queryType]) } reply := func(msg *dns.Msg) { if err = w.WriteMsg(msg); err != nil { r.log().WithError(err).Errorf("[resolver] failed to write response") } } if err != nil { r.log().WithError(err).Errorf("[resolver] failed to handle query: %s (%s)", queryName, dns.TypeToString[queryType]) reply(new(dns.Msg).SetRcode(query, dns.RcodeServerFailure)) return } if resp != nil { // We are the authoritative DNS server for this request so it's // on us to truncate the response message to the size limit // negotiated by the client. maxSize := dns.MinMsgSize if w.LocalAddr().Network() == "tcp" { maxSize = dns.MaxMsgSize } else { if optRR := query.IsEdns0(); optRR != nil { if udpsize := int(optRR.UDPSize()); udpsize > maxSize { maxSize = udpsize } } } resp.Truncate(maxSize) reply(resp) return } if r.proxyDNS { // If the user sets ndots > 0 explicitly and the query is // in the root domain don't forward it out. We will return // failure and let the client retry with the search domain // attached. if (queryType == dns.TypeA || queryType == dns.TypeAAAA) && r.backend.NdotsSet() && !strings.Contains(strings.TrimSuffix(queryName, "."), ".") { resp = createRespMsg(query) } else { resp = r.forwardExtDNS(w.LocalAddr().Network(), query) } } if resp == nil { // We were unable to get an answer from any of the upstream DNS // servers or the backend doesn't support proxying DNS requests. resp = new(dns.Msg).SetRcode(query, dns.RcodeServerFailure) } reply(resp) } func (r *Resolver) dialExtDNS(proto string, server extDNSEntry) (net.Conn, error) { var ( extConn net.Conn dialErr error ) extConnect := func() { if server.port == 0 { server.port = 53 } addr := fmt.Sprintf("%s:%d", server.IPStr, server.port) extConn, dialErr = net.DialTimeout(proto, addr, extIOTimeout) } if server.HostLoopback { extConnect() } else { execErr := r.backend.ExecFunc(extConnect) if execErr != nil { return nil, execErr } } if dialErr != nil { return nil, dialErr } return extConn, nil } func (r *Resolver) forwardExtDNS(proto string, query *dns.Msg) *dns.Msg { for _, extDNS := range r.extDNSList { if extDNS.IPStr == "" { break } // limits the number of outstanding concurrent queries. ctx, cancel := context.WithTimeout(context.Background(), extIOTimeout) err := r.fwdSem.Acquire(ctx, 1) cancel() if err != nil { r.logInverval.Do(func() { r.log().Errorf("[resolver] more than %v concurrent queries", maxConcurrent) }) return new(dns.Msg).SetRcode(query, dns.RcodeRefused) } resp := func() *dns.Msg { defer r.fwdSem.Release(1) return r.exchange(proto, extDNS, query) }() if resp == nil { continue } switch resp.Rcode { case dns.RcodeServerFailure, dns.RcodeRefused: // Server returned FAILURE: continue with the next external DNS server // Server returned REFUSED: this can be a transitional status, so continue with the next external DNS server r.log().Debugf("[resolver] external DNS %s:%s returned failure:\n%s", proto, extDNS.IPStr, resp) continue } answers := 0 for _, rr := range resp.Answer { h := rr.Header() switch h.Rrtype { case dns.TypeA: answers++ ip := rr.(*dns.A).A r.log().Debugf("[resolver] received A record %q for %q from %s:%s", ip, h.Name, proto, extDNS.IPStr) r.backend.HandleQueryResp(h.Name, ip) case dns.TypeAAAA: answers++ ip := rr.(*dns.AAAA).AAAA r.log().Debugf("[resolver] received AAAA record %q for %q from %s:%s", ip, h.Name, proto, extDNS.IPStr) r.backend.HandleQueryResp(h.Name, ip) } } if len(resp.Answer) == 0 { r.log().Debugf("[resolver] external DNS %s:%s returned response with no answers:\n%s", proto, extDNS.IPStr, resp) } resp.Compress = true return resp } return nil } func (r *Resolver) exchange(proto string, extDNS extDNSEntry, query *dns.Msg) *dns.Msg { extConn, err := r.dialExtDNS(proto, extDNS) if err != nil { r.log().WithError(err).Warn("[resolver] connect failed") return nil } defer extConn.Close() log := r.log().WithFields(logrus.Fields{ "dns-server": extConn.RemoteAddr().Network() + ":" + extConn.RemoteAddr().String(), "client-addr": extConn.LocalAddr().Network() + ":" + extConn.LocalAddr().String(), "question": query.Question[0].String(), }) log.Debug("[resolver] forwarding query") resp, _, err := (&dns.Client{ Timeout: extIOTimeout, // Following the robustness principle, make a best-effort // attempt to receive oversized response messages without // truncating them on our end to forward verbatim to the client. // Some DNS servers (e.g. Mikrotik RouterOS) don't support // EDNS(0) and may send replies over UDP longer than 512 bytes // regardless of what size limit, if any, was advertized in the // query message. Note that ExchangeWithConn will override this // value if it detects an EDNS OPT record in query so only // oversized replies to non-EDNS queries will benefit. UDPSize: dns.MaxMsgSize, }).ExchangeWithConn(query, &dns.Conn{Conn: extConn}) if err != nil { r.log().WithError(err).Errorf("[resolver] failed to query DNS server: %s, query: %s", extConn.RemoteAddr().String(), query.Question[0].String()) return nil } if resp == nil { // Should be impossible, so make noise if it happens anyway. log.Error("[resolver] external DNS returned empty response") } return resp }